JP5452982B2 - slipper - Google Patents

Description

  The present invention relates to a slipper that can be used for wiping off moisture and dirt by providing a pile excellent in water absorption at a location facing a portion where a foot in a worn state is located, and reversing the bottom and upper parts.

  Japanese Patent No. 3177833 (Patent Document 1) describes a foot wipe characterized in that the surface is covered with a pile layer in which a pile having no adhesive resin and a pile in which fibers are set by the adhesive resin are mixed. The invention of the mat is described.

  This foot wiping mat stimulates the soles like a rigid hemp thread to give a refreshing feeling of sarat, and the foot wiping mat does not feel sticky during use, so it does not need to be replaced frequently It is supposed to be.

  Although this foot-wiping mat can prevent a sticky feeling, it has been difficult to say that sufficient consideration has been given to water absorption for quickly removing moisture from wet feet and the like.

  Japanese Patent Laid-Open No. 5-247834 (Patent Document 2) describes a composite yarn composed of a synthetic fiber (A fiber) having a boiling water shrinkage of 25 to 50% and a hydrophilic fiber (B fiber) other than the A fiber. By treating a pile fabric knitted with a pile yarn having a thickness of 2000d to 5000d and a twist coefficient of 70 to 120, the pile length of the pile portion is 3 to 6 mm and the pile diameter An invention of a pile fabric having a thickness of 2 to 5 mm is disclosed.

  The invention of this pile fabric is similar to that of using a fiber in a shoe insole, insole, and slipper insole material excellent in uneven foot sole stimulation that has been obtained only with a synthetic resin synthetic rubber molded product. Further, it is possible to provide a pile fabric useful for a comfortable shoe insole, insole, and slipper insole material that has an effect and is excellent in water absorption and moisture absorption, which is not found in conventional products.

  The invention of this pile fabric is to achieve the same effect as a shoe insole excellent in uneven foot stimulation, which was obtained only with a synthetic resin synthetic rubber molded product, by a pile fabric using fibers. Therefore, it is possible to realize a shoe insole, insole, and slipper insole material that are excellent in water absorption and hygroscopicity and have a good touch that could not be obtained with conventional synthetic resin synthetic rubber. However, it has been difficult to say that sufficient consideration has been given to water absorption in order to quickly remove water from wet feet and the like.

  Japanese Patent Laying-Open No. 2006-21004 (Patent Document 3) is characterized in that an inclined short pile cloth tip portion is provided on the slipper tread surface and the slipper back inner surface side in the slipper toe direction. An invention of slippers is described.

  In this invention, the inclining direction of the inclined pile provided on the slipper has an effect of catching on the skin of the sole or the fiber of the sock, and is difficult to remove when moving forward or backward during walking, and is provided for a wheelchair in a corridor or the like When walking toward the slope of the slope, it is possible to prevent it from being easily removed backward, and it is possible to walk easily and safely without the need to apply extra force to the foot.

  However, the slipper of the present invention does not take into consideration water absorption for quickly removing moisture such as wet feet after bathing.

  In addition, there is no slipper that can be used for wiping away moisture and dirt by reversing the bottom and upper parts.

Japanese Patent No. 3177833 JP-A-5-247834 JP 2006-21004 A

  The present invention has been made in view of the above-described problems existing in the prior art, and the object of the present invention is to quickly absorb moisture such as a wet foot when worn. Another object of the present invention is to provide a slipper that can be used for wiping away moisture and dirt by reversing the bottom and the upper part.

(1) The slipper of the present invention that achieves the above object is
A slipper having a bottom portion that supports the sole and an upper portion that is coupled to the bottom portion and covers the instep,
Pile is provided at the place where the foot in the state of wearing is located,
The bottom and the upper have the flexibility that can be reversed to form the bottom and the upper, respectively,
The pile forming body for forming each pile having a large number in the pile portion has a substantially cylindrical shape, and the fiber linear bodies are densely arranged so as to be radially radial about the axis of the pile, and the axis line The piles are densely arranged in a direction, and the substantially cylindrical outer peripheral surface of the pile is a pile formed by a tip portion of each of the filaments.

  The pile provided in the part facing the part where the foot (for example, the back side of the foot, the back side, the toe part, the side part and the rear part) is located in the slipper is a fiber line. Strips (for example, various synthetic fiber filaments, synthetic fibers, or natural fiber staple yarns) are densely arranged radially in the radial direction around the axis of the pile and densely arranged in the axial direction. For this reason, in each circular cross section of a pile having a substantially cylindrical shape, the linear body becomes more dense as it goes inward.

  Therefore, since water absorption acts toward the inside of the pile due to capillary action, each pile has a relatively large amount of water (including “water” containing other components than water or other water-based liquids). Or “water”)) can be rapidly absorbed toward the inside of each circular cross section.

  Therefore, when the slippers are worn with wet feet, the moisture of the wet feet can be quickly absorbed in the worn state.

  Further, since the bottom and the upper have flexibility that can be reversed to form the bottom and the upper, respectively, the bottom and the upper can be reversed and worn. In that case, since the pile excellent in water absorption is located on the lower side of the bottom portion, moisture and dirt thereon can be wiped off while moving on the floor. Alternatively, when the floor and the upper part of the slippers are worn with the front and back reversed and moved on the floor surface or the like, the movement can be caused by a large number of piles on the lower side of the bottom so that the moving sound is not generated as much as possible.

  In the slipper of the present invention described above, the tip of the pile is formed by the tips of the filaments (for example, various synthetic fiber filaments, synthetic fibers, or natural fiber staple yarns) that are radially arranged to form the pile. In addition, it may have a substantially convex curved surface shape.

  In this case, since the tip of the pile forms a substantially convex curved surface formed by the tips of the linearly arranged filaments, the linear member further increases toward the inside of the substantially convex curved tip. It becomes a high density state. For this reason, water absorption acts toward the inside of the pile due to capillary action, so that moisture can be rapidly absorbed from the tip of each pile toward the inside.

  In addition, the pile in the slipper may have a substantially cylindrical shape formed by twisting a loop portion of a molding yarn having a fiber filament as a decoration yarn around the core yarn of the molding yarn. it can.

  In this case, the pile is formed by twisting the loop portion of the molding yarn around the core yarn of the molding yarn, that is, the end portion from one base portion of the loop portion of the molding yarn constituting the loop portion. The part which comprises an edge part from the part to perform and the other base part twists around the core yarn of both parts, and forms a substantially cylindrical shape.

  (2) In the slipper of the present invention, the filament in the pile is a non-water-absorbing filament of 0.05 to 0.8 denier, and the pile is a highly water-absorbing and highly drying pile. be able to. That is, the pile has a substantially cylindrical shape, and non-water-absorbing filaments of 0.05 to 0.8 denier are densely arranged radially in the radial direction around the axis of the pile and in the axial direction. The pile can be a highly water-absorbing and highly drying pile in which the substantially cylindrical outer peripheral surface of the pile is formed by the tip of each filament.

  In this case, the pile provided in the part facing the part where the foot in the slipped state (for example, one or more of the sole side, the back side, the toe part, the side part and the rear part) is located is 0. .05 to 0.8 denier extremely thin non-water-absorbing filaments are densely arranged radially in the radial direction around the axis of the pile and are densely arranged in the axial direction. In each circular cross section of a circular pile having a cylindrical shape, the filament becomes more dense as it goes inward.

  Therefore, since a strong water absorption force acts toward the inside of the pile due to capillary action, each pile has a relatively large amount of moisture (including water containing other components than water or other aqueous liquids). ”Or“ water ”) can be rapidly absorbed towards the inside of each circular cross section.

  Conversely, the substantially cylindrical outer peripheral portion, which is the outer portion of each circular cross section in the pile that has absorbed moisture, is in a state of low moisture content due to capillary action. In other words, the substantially cylindrical outer peripheral surface portion of the substantially cylindrical pile is formed by the tip of the non-water-absorbing filament, so that the area occupied by the fiber is relatively small and the fiber itself maintains a non-wetting state. To do. Therefore, the substantially cylindrical outer peripheral portion of the pile in a state where moisture has been absorbed is easily maintained in a relatively dry state.

  Therefore, the pile provided in the slipper can absorb moisture quickly, and can realize high water absorption and high drying property that the surface can be easily maintained in a dry state. For this reason, when the slippers are worn with wet feet, the moisture of the wet feet can be quickly absorbed in a worn state to quickly give a dry feeling.

  Each of the piles is made of a material in which the filaments constituting the pile are non-water-absorbing, and the filaments are densely arranged radially in the radial direction about the pile axis and densely arranged in the axial direction. In addition, both the structure in which the substantially cylindrical outer peripheral surface of the pile is formed by the tip of each filament is excellent in centrifugal dewaterability or other dewaterability and dryness after dewatering.

  In addition, it is desirable to provide many piles.

  In the slipper of the present invention, the tip of the pile may have a substantially convex curved surface formed by the tips of the radially arranged filaments constituting the pile.

  In this case, the tip of the pile has a substantially convex curved surface formed by the tip of the filament in which 0.05 to 0.8 denier non-water-absorbing filaments are radially arranged. The filament becomes more dense as it goes inward. Therefore, since a strong water absorption force acts inward of the pile due to capillary action, moisture can be absorbed rapidly from the tip of each pile inward. Conversely, the tip of the pile that has absorbed water has a low moisture content due to capillary action. In addition, since the substantially convex curved tip is formed by the tip of the non-water-absorbing filament, the area occupied by the fiber is relatively small, and the fiber itself maintains a non-wetting state. For this reason, the tip of the pile that has absorbed moisture is likely to be kept relatively dry.

  Further, the pile in the slipper is formed in a substantially cylindrical shape by looping a loop portion made of a morsel yarn having a non-water-absorbing filament of 0.05 to 0.8 denier as a decorative yarn and twisting around the core yarn of the morrow yarn. Can be formed.

  In this case, the pile is formed by twisting the loop portion of the molding yarn around the core yarn of the molding yarn, that is, the end portion from one base portion of the loop portion of the molding yarn constituting the loop portion. The part which comprises an edge part from the part to perform and the other base part twists around the core yarn of both parts, and forms a substantially cylindrical shape.

  The base of the pile in the slipper may be bonded to a water absorbent material.

  In this case, since the pile base is bonded to the water-absorbing material, the water-absorbing material at the base further absorbs the moisture absorbed by the pile, thereby increasing the total amount of moisture that the pile can absorb. it can.

  The filament in the slipper pile may be a polyester, polyamide, polypropylene, or polyethylene filament.

  Further, the non-water-absorbing filament in the slipper pile may be non-water-absorbing to such an extent that the above effects can be obtained. For example, the water absorption is 5% or less at 20 ° C. and 65% relative humidity. Can be.

  The pile of the slipper of the present invention, which is provided at a portion facing the portion where the foot in the worn state is located, can absorb moisture quickly. Therefore, when the slipper is worn on a wet foot, the slipper can quickly absorb moisture from the wet foot. Further, since the bottom and the upper have flexibility that can be reversed to form the bottom and the upper, respectively, the bottom and the upper can be reversed and worn. In that case, since the pile excellent in water absorption is located on the lower side of the bottom portion, moisture and dirt thereon can be wiped off while moving on the floor.

It is a typical longitudinal cross-sectional view of a slipper. It is a typical expanded cross-sectional view of a slipper. It is a typical front view of the slipper in the state where the bottom is folded back and stored in the upper part. It is a typical longitudinal cross-sectional view of the slipper which reversed front and back. It is a typical expanded cross-sectional view of the slipper which reversed front and back. It is a typical principal part enlarged view of the base fabric provided with the pile. It is a typical expanded cross-sectional view of a pile. It is a schematic diagram which shows a part of process of forming a pile with a molding yarn.

  Embodiments of the present invention will be described with reference to the drawings.

  The drawings all relate to a slipper (an example of a slipper) as an example of an embodiment of the present invention.

  This slipper A has all the parts facing the part where the foot in the worn state is located (that is, the part where the sole, the front part on the back side, the toe part and the front part are located in the state where the slipper A is worn). The pile cloth L is constituted. That is, the pile cloth L is provided on the bottom upper part A1 (including the toe lower part A2) and the upper part A3 (including the toe inner part A4, the toe inner upper part A5 and the front inner part A6) of the slipper A. In addition, the pile P in the pile cloth L is provided so as to face the portion where the foot in the worn state is located.

  The pile cloth L includes a large number of piles P having a substantially cylindrical shape disposed on the base cloth S, and the base of each pile P is coupled to the base cloth S. In addition, as the base fabric, for example, felt, woven fabric, non-woven fabric, knitted fabric, and the like can be used. In addition to the base fabric, a sheet-like material that can be provided with a pile (for example, leather, synthetic resin material, synthetic rubber material, etc.) ) Can be used to form a slipper with a pile.

  The bottom B and the upper U of the slipper A are made of a flexible material such as sponge as a core material, so that even if the bottom B and the upper U are turned upside down, as shown in FIGS. The upper part can be formed, and it has the flexibility that the bottom part B can be folded back and stored in the upper part U as shown in FIG. When the front and back are reversed, as shown in FIGS. 4 and 5, the pile cloth L and the pile P at the bottom B are located on the lower side, and the pile cloth L and the pile P on the upper U are located on the outside.

  Each pile P is made of a non-water-absorbing polyester filament F having a denier of 0.3 denier (mould yarn M which uses a filamentous filament such as staple yarn without using a filament) as a decorative yarn. Is formed. That is, as shown in FIG. 8, after forming the loop portion R by the molding yarn M on the base fabric S, the end portion from one base portion of the loop portion R of the molding yarn M constituting the loop portion R is extended. The part which comprises an edge part from the part to comprise and the other base part twists around the core yarn C of both parts, and forms the substantially cylindrical pile P shown in FIG. For example, after forming the loop portion R by the molding yarn M on the base fabric S using the strong twist molding yarn M, each loop portion R is formed of the molding yarn M by performing heat treatment (heat treatment in the dyeing process is preferable). It can be twisted around the core yarn C.

  Each pile P formed in this manner has a substantially cylindrical shape, and 0.3 denier non-water-absorbing filaments F are densely arranged so as to radiate substantially radially about the axis of the pile P. And it is densely arranged in the axial direction, and the substantially cylindrical outer peripheral surface of the pile P is formed by the tip of each filament F. The tip portion Pa of the pile P has a substantially convex curved surface formed by the tip portions of the filaments F that are radially arranged to constitute the pile P.

  A large number of piles P arranged on the base fabric S are densely arranged such that an extremely thin non-water-absorbing filament F of 0.3 denier is radially formed around the axis of the pile P and radially. Since they are densely arranged in the axial direction, the filaments F become more dense as they go inward in each circular cross section of the substantially circular pile P. Further, since the tip portion Pa of the pile P has a substantially convex curved surface shape formed by the tip portion of the filament F in which the non-water-absorbing filament F of 0.3 denier is radially arranged, the substantially convex curved surface tip portion The filament F becomes more dense as it goes inward. Therefore, a strong water absorption force acts toward the inside of the pile P due to the capillary phenomenon, so that each pile P causes a relatively large amount of water to enter the inside of each circular transverse section or the tip of the substantially convex curved surface. It can absorb water quickly toward the direction.

  On the contrary, the outer peripheral surface portion of the substantially cylindrical outer peripheral portion or the substantially convex curved distal end portion which is the outer portion of each circular cross section in the absorbed pile P is in a state of low water content due to capillary action. In other words, the substantially cylindrical outer peripheral surface portion and the substantially convex curved tip portion of the pile P having a substantially cylindrical shape are formed by the tip portion of the non-water-absorbing filament F, so that the area occupied by the fiber is relatively small. And the fiber itself maintains a non-wetting state. Therefore, the substantially cylindrical outer peripheral portion of the pile P in a state where moisture has been absorbed is easy to maintain a relatively dry state, and a sticky feeling is unlikely to occur. That is, the pile P can achieve high water absorption and high drying properties.

  Therefore, when this slipper A is worn, a large number of piles respectively provided on the bottom upper part A1 (including the toe lower part A2) and the upper part A3 (including the toe inner part A4, the toe inner upper part A5 and the front inner part A6). P, that is, a large number of piles P facing the part where the sole of the foot, the front part of the instep, the toe part and the front part are located, wets the moisture of the wet foot after bathing, showering, swimming, playing with water, bathing in the sea, etc. Water can be absorbed quickly, and a dry feeling can be quickly given to the foot in the state where the slipper A is worn. The slipper A is densely arranged so that the filaments F constituting the piles P are non-water-absorbing, and the filaments F radiate substantially radially about the axis of the piles P. It is densely arranged in the axial direction, and the tip portion Pa of the pile P has a substantially convex curved surface shape with the filaments F arranged radially, and the substantially cylindrical outer peripheral surface of the pile P and the substantially convex curved surface portion of the tip portion are each It is excellent in centrifugal dehydration or other dehydration properties and drying properties after dehydration as compared with both the structure formed by the tip of the filament F.

  4 and 5 with the bottom B and the upper U of the slipper A turned upside down and moved on the floor or the like, mainly by a large number of piles P below the bottom B. In addition, it is possible to efficiently wipe off moisture and dirt on the floor surface. Alternatively, when the floor B and the upper U of the slipper A are worn in the state shown in FIG. 4 and FIG. Can be moved as little as possible.

  The filament F is 0.05 to 0.8 denier, preferably 0.1 to 0.5 denier, preferably 0.2 to 0.4 denier. The material of the filament F can be, for example, polyamide, polypropylene, or polyethylene filament F in addition to polyester.

  The core yarn C can be a water absorbent yarn and / or a non-water absorbent yarn. In the case of the molding yarn M in which the filament F as a decorative yarn is fused using a heat-sealing yarn as a part or all of the core yarn C, the filament F can be prevented from falling off with high certainty.

  The shape of the pile P can be, for example, a substantially cylindrical shape whose axial direction length is 1.5 to 10 times the diameter. Preferably, the axial length is 2 to 8 times the diameter, more preferably the axial length is about 3 to 6 times the diameter. By making the area of the side peripheral surface of the pile P having a substantially cylindrical shape relatively large, the slipper A having excellent moisture absorption can be obtained. The length of the pile P in the axial direction can be set to, for example, 5 to 80 mm. It is preferably 15 to 50 mm. In addition, although it is preferable that the diameter of the pile P is substantially constant in an axial direction, it is not necessarily restricted to this.

  Further, the pile P is substantially obtained by twisting two or three or more molding yarns having a non-water-absorbing filament of 0.05 to 0.8 denier as a decorative yarn and twisting around the core yarn of the molding yarn. It can also be a loop pile formed by a pile forming yarn (pile forming body) having a cylindrical shape.

  Each pile P in the slipper A can have the same shape and the same size, but can also be a slipper A provided with a plurality of types of piles P having different shapes and sizes. It is preferable that the pile P is provided densely with respect to the base fabric S so that the base fabric S cannot be seen between the piles P from the tip side of the pile P. Although the pile P can be provided with respect to the base fabric S at equal intervals, it is not necessarily restricted to this.

  The base fabric S can be made of water absorbent fibers. In this case, since the base part of each pile P is couple | bonded with the base fabric S, when the base fabric S further absorbs the water | moisture content which the pile P absorbed, many piles P arrange | positioned on the base fabric S will be carried out. The total amount of water that can be absorbed can be increased to more effectively prevent the pile P from feeling sticky. When a pile is provided on a substrate other than the base fabric, the same effect can be obtained if the substrate is made of a water-absorbing material. In addition, the base fabric S does not necessarily need to consist of a water absorbing fiber.

  It should be noted that the dimensions, number, material, shape, relative arrangement, etc. of the component parts in the description of the above embodiments are limited to the scope of the present invention unless otherwise specified. It is not intended to be limiting, but merely an illustrative example.

A Slipper A1 Bottom upper part A2 Toe inside lower part A3 Inside inside A4 Toe inside A5 Toe inside upper part A6 Front inside part B Bottom part C Core yarn F Filament L Pile cloth M Mole yarn P Pile Pa Tip part R Loop part S Base cloth U Upper part

Claims (7)

A slipper having a bottom portion that supports the sole and an upper portion that is coupled to the bottom portion and covers the instep,
Pile is provided at the place where the sole of the foot in the state of wearing, the front part on the back side, the toe part and the front part are located ,
The pile forming body for forming each pile having a large number in the pile portion has a substantially cylindrical shape, and the fiber linear bodies are densely arranged so as to be radially radial about the axis of the pile, and the axis line it is Mitsu設direction, Ri Ah with pile substantially cylindrical outer circumferential surface of said pile is formed by the tip portion of each striatum,
Slippers the textile striatal characterized filaments der Rukoto of non-water absorptive. The slipper according to claim 1, wherein the bottom part and the upper part are flexible so that they can be reversed to form the bottom part and the upper part, respectively. 3. The pile according to claim 1 or 2 , wherein a loop portion made of a molding yarn having a fiber filament as a decorative yarn is twisted around a core yarn of the molding yarn to form a substantially cylindrical shape. Slippers. The slipper according to claim 1 , 2 or 3, wherein the filament in the pile is a non-water-absorbing filament of 0.05 to 0.8 denier, and the pile is a highly water-absorbing and highly drying pile. The above pile has a substantially cylindrical shape formed by twisting a loop portion of a molding yarn having a non-water-absorbing filament of 0.05 to 0.8 denier as a decoration yarn around the core yarn of the molding yarn. The slipper according to claim 4 . The slipper according to any one of claims 1 to 5, wherein the non-water-absorbing filament is a polyester-based, polyamide-based, polypropylene-based or polyethylene-based filament. The slipper according to any one of claims 1 to 5, wherein the water absorption rate of the non-water-absorbing filament is 5% or less at 20 ° C and a relative humidity of 65%.

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